CN117263508A - Automatic cutting and collecting equipment for mobile phone screen glass and cutting and collecting method thereof - Google Patents

Abstract

The invention relates to the technical field of digital product manufacturing equipment, and discloses automatic cutting and collecting equipment and a cutting and collecting method for mobile phone screen glass. According to the invention, an automatic material taking effect is achieved through the material taking mechanism, because glass is a special material, the characteristics of fragility and easy pollution exist, glass required by a mobile phone screen is thinner, glass breakage and pollution are easily caused by manual feeding, the occurrence of the situations can be reduced with high probability while personnel cost is saved, the driving assembly starts to drive the material taking rod to do circular motion through the main driving shaft, when the material taking rod moves to the front of prefabricated glass, the sucking disc contacts the glass, dislocation is generated when the driving rod drives the driven rod to move, and the movable connecting rod is promoted to pull the output end of the air compressor.

Description

Automatic cutting and collecting equipment for mobile phone screen glass and cutting and collecting method thereof

Technical Field

The invention relates to the technical field of digital product manufacturing equipment, in particular to automatic cutting and collecting equipment and a cutting and collecting method for mobile phone screen glass.

Background

In daily life, almost everyone uses digital products, the digital products make our lives colorful, the types of the digital products are very various, collection is the most common one, communication between people is very convenient, even if two people are far apart, communication can be realized through a mobile phone, and a plurality of accessories such as screen glass and the like can be used in the processing process of the mobile phone. Before the screen glass is used, the screen glass is usually required to be cut into small pieces, and because of low manual cutting efficiency and poor precision, automatic cutting equipment is created, but the existing cutting equipment still has some problems, such as chips generated during cutting are not well treated; for example, after cutting, the materials are manually taken, and the materials cannot be automatically transported; also, the cut screen glass is not isolated after being collected, and abrasion is caused by long-time contact.

Disclosure of Invention

The invention aims to provide automatic cutting and collecting equipment and method for screen glass of a mobile phone, so as to solve the problems in the background technology.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to automatic cutting and collecting equipment for mobile phone screen glass, which comprises a base, a material taking mechanism, a transmission mechanism, a cutting mechanism and a collecting mechanism, wherein the material taking mechanism can be provided with a plurality of groups, each group of material taking mechanism comprises a material taking rod, the material taking rod comprises a driving rod and a driven rod, a movable connecting rod is arranged between the driving rod and the driven rod, a driving assembly is arranged below the material taking mechanism, and a main driving shaft is fixedly arranged at one end of the driving assembly;

the transmission mechanism comprises a plurality of transmission rods, a plurality of transmission wheels are fixedly arranged on the outer wall of each transmission rod, and limiting support pieces are arranged at the two ends and the middle of each transmission rod;

the cutting mechanism comprises a fixed support, a cutting operation table is fixedly arranged between the two fixed supports, the fixed support is fixedly connected with the base, a longitudinal displacement assembly is arranged in the fixed support, the outer wall of the longitudinal displacement assembly is slidably connected with a transverse displacement assembly, and the outer wall of the transverse displacement assembly is slidably connected with a laser cutting assembly;

the collecting mechanism comprises a die taking operation table, a top die assembly is arranged in the die taking operation table, the top die assembly comprises a limiting rod and a plurality of top die rods, the number of the top die rods can be multiple, one ends of the top die rods are fixedly connected with a top die disc, the other ends of the top die rods are fixedly provided with a string connecting rod, a telescopic cylinder is fixedly arranged below the string connecting rod, and one ends of the string connecting rod are provided with a power assembly.

Further, be located the upper surface fixed mounting of extracting pole has the sucking disc, every the bottom of sucking disc all is provided with the gas delivery spare, is located the below fixed mounting of extracting pole and has air compressor.

By adopting the technical scheme, the sucker plays a role in adsorbing and clamping the glass, and when the sucker contacts the glass, the air compressor evacuates air in the sucker through the air conveying piece, so that the sucker adsorbs and clamps the glass.

Further, one end of one movable connecting rod is rotationally connected with the output end of the air compressor, and one end of each gas conveying piece is fixedly connected with the air compressor.

By adopting the technical scheme, when the material taking mechanism takes materials, the driving rod drives the driven rod to move, and the movable connecting rod is involved to enable the movable connecting rod to have a push-pull effect on the output end of the air compressor, so that the air in the sucker is controlled.

Further, the inner walls of the material taking rods are fixedly connected with the outer wall of the main driving shaft, and the main driving shaft is rotationally connected with the base.

By adopting the technical scheme, the main driving shaft plays a driving role on the material taking rod, the main driving shaft is enabled to rotate through the driving assembly, and the main driving shaft drives the material taking rod to rotate, so that the material taking of glass is realized.

Further, each limit supporting piece is fixedly connected with the upper surface of the base, and a plurality of transmission rods are sequentially connected with a transmission belt in a transmission way. And a linear motor assembly is fixedly arranged on the outer wall of the laser cutting assembly.

By adopting the technical scheme, the limiting support piece plays a role in fixing and supporting the transmission rod, so that the limiting support piece can stably transmit glass original pieces, the linear motor assembly provides power for the laser cutting assembly, and the linear motor assembly realizes displacement in the vertical direction and the horizontal direction through the longitudinal displacement assembly and the transverse displacement assembly, inputs data to the operation end, and can finish cutting of mobile phone screen glass with different sizes.

Further, each top die plate penetrates through the upper surface of the die-taking operation table to be in contact with the screen glass of the mobile phone, a blanking slide rail is arranged above the die-taking operation table, and a blanking push rod is connected to the outer wall of the blanking slide rail in a sliding mode.

By adopting the technical scheme, the combination of the blanking track and the blanking push rod plays a role in collecting and transporting the mobile phone screen glass, the mobile phone screen glass is reserved on the blanking slide rail, and the blanking slide rail can adjust the distance according to the mobile phone screen glass with different sizes.

Further, the power component comprises a control button, the control button is in contact with the series rod, a curve groove is formed in the outer wall of the top die rod, the outer wall of the limiting rod is in sliding connection with the curve groove, and mobile phone screen glass is transmitted between the transmission mechanism and the cutting operation table.

By adopting the technical scheme, the curve groove plays a role in rotating and lifting the top die rod under the action of the limiting rod, the top die plate contacts the cut mobile phone screen glass and ejects the cut mobile phone screen glass out of the glass original, the outer wall of the top die rod is provided with the 90-degree curve groove, the top die plate drives the mobile phone screen glass to rotate for 90 degrees after penetrating through the gap of the blanking slide rail by the limiting rod in the upward movement process of the top die rod, and then the top die assembly drops.

A cutting and collecting method of automatic cutting and collecting equipment for screen glass of a mobile phone comprises the following steps:

s1, vertically placing glass to be cut on one side of the equipment in advance, starting an equipment power supply, starting a driving assembly to drive a material taking rod to do circular motion through a main driving shaft, before the material taking rod moves to prefabricated glass, enabling a sucker to contact the glass, generating dislocation when the driving rod drives a driven rod to move, enabling a movable connecting rod to pull the output end of an air compressor, sucking internal air to be sucked out when the sucker contacts the glass, thereby achieving the adsorption effect, enabling the material taking rod to convey the glass to a conveying mechanism after adsorption, enabling the movable connecting rod to apply thrust to the output end of the air compressor, and conveying gas to the sucker to enable the sucker to be separated from the glass.

S2, the transmission rod rotates to drive the transmission wheel to rotate, the transmission glass is transmitted to the cutting operation table, the linear motor provides power for the laser cutting assembly, the linear motor realizes displacement in the vertical direction and the horizontal direction through the longitudinal displacement assembly and the transverse displacement assembly, data is input to the operation end, and cutting of the mobile phone screen glass with different sizes can be completed.

S3, after cutting is finished, the glass is continuously transported to the die-taking operation table by the conveying mechanism, the output end of the telescopic cylinder upwards pushes the die-pushing rod and the die-pushing disc out of the die-taking operation table, the die-pushing disc contacts the cut mobile phone screen glass and pushes the cut mobile phone screen glass out of the glass original piece, a 180-degree curve groove is formed in the outer wall of the die-pushing rod, the mobile phone screen glass is driven by the die-pushing disc to rotate 90 degrees through a gap of the blanking slide rail in the upward movement process of the die-pushing rod and then rotate 90 degrees, then the die-pushing assembly drops, at the moment, the mobile phone screen glass is reserved on the blanking slide rail, the blanking slide rail can adjust the distance according to the mobile phone screen glass with different sizes, when the die-pushing assembly returns to the initial position, the serial rod contacts a control button of the power assembly, the blanking push rod pushes the mobile phone screen glass out of the device along the blanking slide rail, and collection is completed.

The invention has the following beneficial effects:

(1) According to the invention, an automatic material taking effect is achieved through the material taking mechanism, because glass is a special material and has the characteristics of fragility and easy pollution, glass required by a mobile phone screen is thinner, glass breakage and pollution are easily caused by manual feeding, the occurrence of the situation can be reduced with high probability while personnel cost is saved, the material taking mechanism is driven by the driving assembly to do circular motion through the main driving shaft, when the material taking rod moves to the prefabricated glass, the sucker contacts the glass, dislocation is generated when the driving rod drives the driven rod to move, the movable connecting rod is driven to pull the output end of the air compressor, the internal air is sucked out when the sucker contacts the glass, so that the adsorption effect is achieved, the glass is conveyed to the transmission mechanism by the material taking rod after adsorption, and at the moment, the movable connecting rod applies thrust to the output end of the air compressor to convey gas to the sucker, so that the sucker is separated from the glass.

(2) According to the invention, the cut mobile phone screen glass is taken out and collected through the collecting mechanism, the output end of the telescopic cylinder upwards pushes the ejector die rod and the ejector die plate out of the die-taking operation table, the ejector die plate contacts the cut mobile phone screen glass and ejects the cut mobile phone screen glass out of the glass original piece, the outer wall of the ejector die rod is provided with a 90-degree curve groove, the ejector die plate drives the mobile phone screen glass to rotate for 90 degrees after passing through the gap of the blanking slide rail by the limit rod in the upward movement process of the ejector die rod, then the ejector die assembly drops, at the moment, the mobile phone screen glass is reserved on the blanking slide rail, the blanking slide rail can adjust the distance according to the mobile phone screen glass with different sizes, when the ejector die assembly returns to the initial position, the serial rod contacts the control button of the power assembly, and the blanking push rod pushes the mobile phone screen glass out of the device along the blanking slide rail, so that the collection is completed.

Of course, it is not necessary for any one product to practice the invention to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the base of the present invention;

FIG. 3 is a schematic diagram of a transmission mechanism according to the present invention;

FIG. 4 is a schematic view of a reclaimer mechanism 1;

FIG. 5 is a schematic view of the structure of the take-off mechanism of the present invention shown in FIG. 2;

FIG. 6 is a schematic view of the structure of the laser cutting assembly of the present invention;

FIG. 7 is a schematic view of the structure of the linear motor of the present invention;

FIG. 8 is a schematic diagram of the structure of the mobile phone mechanism of the present invention;

fig. 9 is an enlarged schematic view of the structure of the present invention at a.

In the drawings, the list of components represented by the various numbers is as follows:

in the figure: 1. a base; 2. a material taking mechanism; 3. a transmission mechanism; 4. a cutting mechanism; 5. a collection mechanism; 201. a take-out rod; 2011. a driving rod; 2012. a driven rod; 2013. a movable connecting rod; 202. a gas delivery member; 203. a drive assembly; 204. a main drive shaft; 205. an air compressor; 301. a transmission rod; 302. a driving wheel; 303. a limit support; 401. a cutting operation table; 402. a longitudinal displacement assembly; 403. a lateral displacement assembly; 404. a laser cutting assembly; 501. a die-taking operation table; 502. a top mold assembly; 5021. a limit rod; 5022. a top mold rod; 5023. a top mold plate; 5024. a string link rod; 503. a power assembly; 504. and (5) blanking sliding rails.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-9, the invention discloses an automatic cutting and collecting device for mobile phone screen glass, which comprises a base 1, a material taking mechanism 2, a transmission mechanism 3, a cutting mechanism 4 and a collecting mechanism 5, wherein the material taking mechanism 2 can comprise a plurality of groups, each group of material taking mechanisms 2 comprises a material taking rod 201, the material taking rod 201 comprises a driving rod 2011 and a driven rod 2012, a movable connecting rod 2013 is arranged between the driving rod 2011 and the driven rod 2012, a driving component 203 is arranged below the material taking mechanism 2, a main driving shaft 204 is fixedly arranged at one end of the driving component 203, a device power supply is started, the driving component 203 starts to drive the material taking rod 201 to do circular motion through the main driving shaft 204, when the material taking rod 201 moves to the prefabricated glass, a suction disc contacts the glass, dislocation is generated when the driving rod 2011 drives the driven rod 2012 to move, the movable connecting rod 2013 pulls the output end of an air compressor 205, when the suction disc contacts the glass, thereby achieving the adsorption effect, the material taking rod 201 transports the glass to the transmission mechanism 3, at the moment, the movable connecting rod 2013 applies thrust to the output end of the air compressor 205, the suction disc moves gas to the suction disc inside, and the suction disc breaks away from the glass;

the transmission mechanism 3 comprises a plurality of transmission rods 301, a plurality of transmission wheels 302 are fixedly arranged on the outer wall of each transmission rod 301, limiting supporting pieces 303 are arranged at the two ends and the middle of each transmission rod 301, the transmission rods 301 rotate to drive the transmission wheels 302 to rotate, and glass is transmitted to a cutting operation table 401;

the cutting mechanism 4 comprises a fixed bracket, a cutting operation table 401 is fixedly arranged between the two fixed brackets, the fixed bracket is fixedly connected with the base 1, a longitudinal displacement assembly 402 is arranged in the fixed bracket, the outer wall of the longitudinal displacement assembly 402 is slidably connected with a transverse displacement assembly 403, the outer wall of the transverse displacement assembly 403 is slidably connected with a laser cutting assembly 404, a linear motor supplies power for the laser cutting assembly 404, and the linear motor realizes displacement in the vertical direction and the horizontal direction through the longitudinal displacement assembly 402 and the transverse displacement assembly 403, and data is input to an operation end to finish cutting of the screen glass of mobile phones with different sizes;

the collection mechanism 5 includes the operation panel 501 of getting it out of the mould, the inside that is located operation panel 501 of getting it out of the mould is provided with the top mould subassembly 502, the top mould subassembly 502 includes gag lever post 5021 and top mould pole 5022, the quantity of top mould pole 5022 can have a plurality ofly, the equal fixedly connected with of one end that is located a plurality of top mould poles 5022 is gone out mould dish 5023, the other end fixed mounting that is located top mould pole 5022 has a cluster link 5024, the below fixed mounting that is located the cluster link 5024 has flexible cylinder, the one end that is located the cluster link 5024 is provided with power pack 503, the output of flexible cylinder upwards is gone out the operation panel 501 of getting the mould with top mould pole 5022 and top mould dish 5023, top mould dish 5023 contact cut cell-phone screen glass and with its ejecting glass original.

The upper surface fixed mounting who is located the extracting rod 201 has the sucking disc, the bottom of every sucking disc all is provided with gas delivery spare 202, the below fixed mounting who is located extracting rod 201 has air compressor 205, one end and the output of air compressor 205 of one of them movable connecting rod 2013 rotate to be connected, the one end of every gas delivery spare 202 all with air compressor 205 fixed connection, produce the dislocation when because of initiative pole 2011 drives the follower 2012 motion, make movable connecting rod 2013 pull air compressor 205's output, inside air is sucked when the sucking disc contacts glass, thereby reach the adsorption efficiency.

The inner walls of the plurality of groups of material taking rods 201 are fixedly connected with the outer wall of the main driving shaft 204, the main driving shaft 204 is rotationally connected with the base 1, the equipment power supply is started, and the driving assembly 203 starts to drive the material taking rods 201 to do circular motion through the main driving shaft 204.

Each limiting support 303 is fixedly connected with the upper surface of the base 1, a transmission belt is sequentially connected between the transmission rods 301 in a transmission manner, and a linear motor assembly is fixedly arranged on the outer wall of the laser cutting assembly 404.

Every top mould dish 5023 all passes the upper surface of drawing die operation panel 501 and cell-phone screen glass contact, is located the top of drawing die operation panel 501 and is provided with unloading slide rail 504, and the outer wall sliding connection of unloading slide rail 504 has the unloading push rod, and unloading slide rail 504 can be according to not unidimensional cell-phone screen glass to adjust the distance, and when top mould subassembly 502 got back to initial position, tandem bar 5024 touched the control button of power subassembly 503, started power subassembly 503, and the unloading push rod is followed unloading slide rail 504 and is pushed out cell-phone screen glass this equipment, accomplishes the collection.

The power component 503 comprises a control button, the control button is in contact with a series rod 5024, a curve groove is formed in the outer wall of a top die rod 5022, the outer wall of a limiting rod 5021 is in sliding connection with the curve groove, mobile phone screen glass is driven between the transmission mechanism 3 and the cutting operation table 401, a 180-degree curve groove is formed in the outer wall of the top die rod 5022, the top die plate 5023 drives the mobile phone screen glass to rotate 90 degrees firstly and then rotate 90 degrees after passing through a gap of the blanking slide rail 504 in the upward movement process of the top die rod 5022, then the top die component 502 drops, and the mobile phone screen glass is reserved on the blanking slide rail 504.

A cutting and collecting method of automatic cutting and collecting equipment for screen glass of a mobile phone comprises the following steps:

s1, vertically placing glass to be cut on one side of the equipment in advance, starting an equipment power supply, starting a driving assembly 203 to drive a material taking rod 201 to do circular motion through a main driving shaft 204, when the material taking rod 201 moves to the prefabricated glass, a sucker contacts the glass, dislocation is generated when the driving rod 2011 drives a driven rod 2012 to move, the movable connecting rod 2013 is driven to pull the output end of an air compressor 205, internal air is sucked out when the sucker contacts the glass, so that the adsorption effect is achieved, the material taking rod 201 conveys the glass to a conveying mechanism 3 after adsorption, at the moment, the movable connecting rod 2013 applies thrust to the output end of the air compressor 205, and gas is conveyed to the sucker to enable the sucker to be separated from the glass.

S2, the transmission rod 301 rotates to drive the transmission wheel 302 to rotate, glass is transmitted to the cutting operation table 401, the linear motor provides power for the laser cutting assembly 404, and the linear motor realizes displacement in the vertical direction and the horizontal direction through the longitudinal displacement assembly 402 and the transverse displacement assembly 403, data is input to the operation end, and cutting of the screen glass of the mobile phones with different sizes can be completed.

S3, after cutting is finished, the glass is continuously transported to the mold taking operation table 501 by the conveying mechanism 3, the output end of the telescopic cylinder upwards pushes the top mold rod 5022 and the top mold plate 5023 out of the mold taking operation table 501, the top mold plate 5023 contacts the cut mobile phone screen glass and pushes the cut mobile phone screen glass out of the glass original, a 180-degree curve groove is formed in the outer wall of the top mold rod 5022, the mobile phone screen glass is limited by the limiting rod 5021 in the upward movement process of the top mold rod 5022, the mobile phone screen glass is driven by the top mold plate 5023 to rotate 90 degrees to pass through a gap of the blanking slide rail 504 and then rotate 90 degrees, then the top mold assembly 502 drops, at the moment, the mobile phone screen glass is reserved on the blanking slide rail 504, the blanking slide rail 504 can adjust the distance according to the mobile phone screen glass with different sizes, when the top mold assembly 502 returns to the initial position, the serial rod 5024 contacts a control button of the power assembly 503, the blanking slide rail 504 pushes the mobile phone screen glass out of the device along the blanking slide rail 504, and collection is completed.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (10)

1. The utility model provides a cell-phone screen glass automatic cutout collecting device, includes base (1), feeding mechanism (2), transport mechanism (3), cutting mechanism (4) and collection mechanism (5), its characterized in that: the material taking mechanisms (2) can be provided with a plurality of groups, each group of material taking mechanism (2) comprises a material taking rod (201), the material taking rods (201) comprise a driving rod (2011) and a driven rod (2012), a movable connecting rod (2013) is arranged between the driving rod (2011) and the driven rod (2012), a driving assembly (203) is arranged below the material taking mechanism (2), and a main driving shaft (204) is fixedly arranged at one end of the driving assembly (203);

the transmission mechanism (3) comprises a plurality of transmission rods (301), a plurality of transmission wheels (302) are fixedly arranged on the outer wall of each transmission rod (301), and limit supporting pieces (303) are arranged at the two ends and the middle of each transmission rod (301);

the cutting mechanism (4) comprises a fixed support, a cutting operation table (401) is fixedly arranged between the two fixed supports, the fixed support is fixedly connected with the base (1), a longitudinal displacement assembly (402) is arranged in the fixed support, the outer wall of the longitudinal displacement assembly (402) is slidably connected with a transverse displacement assembly (403), and the outer wall of the transverse displacement assembly (403) is slidably connected with a laser cutting assembly (404);

the collecting mechanism (5) comprises a die taking operation table (501), a top die assembly (502) is arranged in the die taking operation table (501), the top die assembly (502) comprises a limiting rod (5021) and a top die rod (5022), the number of the top die rods (5022) can be multiple, one ends of the top die rods (5022) are fixedly connected with a top die plate (5023), the other ends of the top die rods (5022) are fixedly provided with a string connecting rod (5024), telescopic cylinders are fixedly arranged below the string connecting rod (5024), and one ends of the string connecting rod (5024) are provided with a power assembly (503).

2. The automatic cutting and collecting device for screen glass of mobile phone according to claim 1, wherein: the upper surface that is located extracting rod (201) is fixed mounting has the sucking disc, and the bottom of every the sucking disc all is provided with gas delivery piece (202), is located extracting rod (201) below fixed mounting has air compressor (205).

3. The automatic cutting and collecting device for screen glass of mobile phone according to claim 2, wherein: one end of one movable connecting rod (2013) is rotationally connected with the output end of the air compressor (205), and one end of each gas conveying piece (202) is fixedly connected with the air compressor (205).

4. The automatic cutting and collecting device for screen glass of mobile phone according to claim 1, wherein: the inner walls of the material taking rods (201) are fixedly connected with the outer walls of the main driving shafts (204), and the main driving shafts (204) are rotationally connected with the base (1).

5. The automatic cutting and collecting device for screen glass of mobile phone according to claim 1, wherein: each limiting support piece (303) is fixedly connected with the upper surface of the base (1), and a plurality of transmission rods (301) are sequentially connected with a transmission belt in a transmission way.

6. The automatic cutting and collecting device for screen glass of mobile phone according to claim 1, wherein: the outer wall of the laser cutting assembly (404) is fixedly provided with a linear motor assembly.

7. The automatic cutting and collecting device for screen glass of mobile phone according to claim 1, wherein: every top mould dish (5023) all pass the upper surface of drawing die operation panel (501) and cell-phone screen glass contact, are provided with unloading slide rail (504) in the top of drawing die operation panel (501), the outer wall sliding connection of unloading slide rail (504) has the unloading push rod.

8. The automatic cutting and collecting device for screen glass of mobile phone according to claim 1, wherein: the power assembly (503) comprises a control button, the control button is in contact with the series rod (5024), a curved groove is formed in the outer wall of the top die rod (5022), and the outer wall of the limiting rod (5021) is in sliding connection with the curved groove.

9. The automatic cutting and collecting device for screen glass of mobile phone according to claim 1, wherein: and a mobile phone screen glass is driven between the transmission mechanism (3) and the cutting operation table (401).

10. The automatic cutting and collecting device for screen glass of mobile phone according to any one of claims 1-9, the cutting and collecting method of the device is provided at present, and the device is characterized in that: the method comprises the following steps:

s1, vertically placing glass to be cut on one side of the equipment in advance, starting an equipment power supply when the equipment is operated, enabling a driving assembly (203) to start to drive a material taking rod (201) to do circular motion through a main driving shaft (204), enabling a sucker to contact the glass before the material taking rod (201) moves to the prefabricated glass, enabling a movable connecting rod (2013) to pull the output end of an air compressor (205) due to dislocation when a driving rod (2011) drives a driven rod (2012) to move, enabling internal air to be sucked out when the sucker contacts the glass, thereby achieving the adsorption effect, enabling the material taking rod (201) to convey the glass to a transmission mechanism (3) after adsorption, enabling the movable connecting rod (2013) to apply thrust to the output end of the air compressor (205), and enabling the sucker to convey air to be separated from the glass;

s2, a transmission rod (301) rotates to drive a transmission wheel (302) to rotate, glass is transmitted to a cutting operation table (401), a linear motor provides power for a laser cutting assembly (404), displacement in the vertical direction and the horizontal direction is realized through a longitudinal displacement assembly (402) and a transverse displacement assembly (403), data is input to an operation end, and cutting of mobile phone screen glass with different sizes can be completed;

s3, after cutting is finished, the conveying mechanism (3) continues to convey glass to the die-taking operation table (501), the output end of the telescopic cylinder upwards pushes the top die rod (5022) and the top die plate (5023) out of the die-taking operation table (501), the top die plate (5023) contacts cut mobile phone screen glass and ejects the glass original, the outer wall of the top die rod (5022) is provided with a 180-degree curve groove, the top die rod (5022) moves upwards, the top die plate (5023) is limited by the limiting rod (5021), the mobile phone screen glass is driven to rotate 90 degrees firstly, the top die plate rotates 90 degrees after passing through the gap of the blanking slide rail (504), then the top die assembly (502) drops, at the moment, the mobile phone screen glass is reserved on the blanking slide rail (504), the blanking slide rail (504) can adjust the distance according to the mobile phone screen glass with different sizes, when the top die assembly (502) returns to the initial position, the string connecting rod (5024) touches the control button of the power assembly (503), the power assembly (503) is started, the blanking slide rail (504) drives the mobile phone screen glass to rotate 90 degrees, the blanking slide rail (504) to push the mobile phone screen glass out of the mobile phone screen glass, and the glass collecting device is completed.